Hydraulic control circuit



p 1942- w. R. TUCKER 2,295,813

HYDRAULI C CONTROL 0 IRCUIT Filed Feb. 3, 1940 Sheets-Sheet l 3/ FIB-.1 37 g5 p 1942- w. R. TUCKER 2,295,813

HYDRAULIC CONTROL CIRCUIT Filed Feb. 3. 1940 2 Sheets-Sheet 2 Ma'm/qii V Patented Sept. 15, 1942 2,295,813 HYDRAULIC ooN'moL cmcnrr Warren E. Tucker, Dayton, Ohio, assignor to The Hydraulic Development Corporation, Inc., Wilmington, DeL, a corporation of Delaware I Application February 3, 1940, Serial No..317,102

' 9 Claims. (01.121-41) This invention relates to hydraulic control systems, and in particular to control Systems for hydraulic radial pumps.

One object of this invention is to provide a pressure fluid delivery control for variable delivery pumps which will enable an operator standing at a place remote from the pump, to shift the pressure control of the pump from one pressure fluid delivery level to another such level.

It is another object of the invention to provide a pressure fluid delivery control for radial pumps having its delivery of fluid varied by movement of a flow-control member or shift ring, which comprises means for controlling said flow-control member or shift ring from a place remote from the pump so as selectively to move the pump from no-delivery or substantially no-delivery position to full-delivery position or vice versa, or to any position therebetween.

It is another object of the invention to provide a pressure fluid control for radial pumps in which the pump may be controlled from aplace remote therefrom so as selectively to vary the pump stroke of the radial Pumping pistons irrespective of whether the pump delivers its fluid in one direction or the other.

Still another object of the invention consists in providing a control for radial pumps in which the delivery of the pump is controllable by simple valve means remote from the pump. v

A further object of the invention consists in providing a pressure fluid delivery control for a variable delivery pump having a flow-control member or shift ring for controlling the delivery of fluid thereof and a pilot pump supplying liquid Figure is a further modification of the hydraulic system. r v 1 Referring now to Flgurel of the drawings in detaihthe variable delivery pump, generally designated I, comprises a casing 2 and a flow-control member or shift ring 3. The shift rin'g surrounds a secondary rotor and a primary rotor carrying a plurality of radial pistons, the stroke of which is variable by movement of the flow-control member or shift ring 3. The general construction and member or shift ring 3 and urged by a spring- 8 so asto move the shift ring 3 toward the right, i. e;, to move the pump to full stroke delivery positlon. While one end of the spring 9 bears against the piston I, the other end of the spring bears against a washer II slidably mounted in the cylinder bore 8. The washer II. is engaged by an adjusting screw H adjustably for controlling the flow-control member or shift ring, in which the delivery volume of the variable Figure 2 is a second embodiment of the inven-- tion likewise in connection with a hydraulic motor;

Figure 3 shows a detail of the controlling means according to the present invention;

Figure 4 is a variation of a portion of the hydraulic system; and y threaded in a closing member- I! closing the outer end of the cylinder bore 6. The. closing member I! is held in its place by a head II having a passage for the adjusting screw .II and being attached to the arm 4. The adjustment of the adjusting screw ll may be effected by a handwheel ll keyed to the adjusting screw II. To prevent leakage from the bore 8 toward the outside, a gasket is preferably arranged between the closing member I2 and a wall portion of the hollow arm 4. The cylinder bore 6 communicates with the outside by means of a breather opening 6a to prevent a suction effect in that portion of bore 6 which is located between the piston 1 and the casing 2 of the pump.

The hollow arm 5 comprises a cylinder bore l5 having slidably mounted therein a piston l8. Connected with the .piston i6 is a push rod l'l preferably threaded into the shift ring 3 and adapted to move the same toward the left when the necessary pressure acts upon the outer piston surface of the piston l6. The outer end of the cylinder bore i5 is closed by means of a gasket I8 and a head I!) connected to the arm 5. Adjacent the outer end of the cylinder bore I5 is provided a slit 20 which communicates through in the valve casing 48.

a conduit 2| and conduit 43 with a fluid tank 22. The head I9 is provided withan aperture 23 communicating through a conduit 24 with a choke volve generally designated 25. The choke valve, 25 comprises a cylinder 26 and a choke member 21 adiustably mounted, for instance by means. of a thread, in the cylinder 26. The

cylinder bore 28 of the choke valve cylinder 26 is adapted to communicate through a conduit 29 with a relief valve 30. The relief valve 30 comprises a casing 3| having a cylinder bore 32 and a piston 33 reciprocably mounted in said bore. A spring 34 is mounted in the cylinder bore 32 and bears with one end against the upper wall of the valve casing 3| while the other end of the spring bears against the piston 33. The relief valve 30 comprises a second chamber 35 which communicates with the conduit 29 while a further conduit 36 leads from the chamber 35 to a pilot pump 31. A conduit 38 leads from the pilot pump 31 to the fluid tank 22.

The piston 33 of the relief valve 38 is provided with a hub 39 which prevents the piston 33 from abutting the lower end of the cylinder bore 32 and enables fluid to pass from the conduit 29 through a conduit 40 ,below the piston 33. A piston rod 4Iconnected to the piston 33 is adapted to close a port 42 in the chamber 35. The port 42 communicates through aconduit 43 with the fluid tank 22.

The suction side of the variable delivery pump I is connected with the fluid tank 22 by means of a conduit 44 and a conduit 45 while the pressure side of the pump communicates through a conduit 46 with a port 41 in the casing 48 of the four-way valve 49. The casing 48 comprises four further ports 56, 52 and 53, each being adapted .to communicate with the cylinder bore 54 in the casing 48. Movably mounted in the cylinder bore 54 is a valve member 55 having two spaced pistons 56 and 51. The piston 51 has a bore 58 leading from the peripheral surface of the piston 51 to the lower side thereof, while a bore 59 leads from the upper side of the piston 51 to its peripheral surface. An annular groove 60 in the casing 48 communicates with the port 52 which in its turn communicates with a conduit 6| leading to one end of a cylinder bore 62 of a fluid motor 63. A conduit 64 leads from the other end of the cylinder bore 6| to the port 53 Theports 50 and 5| in the valve casing 46 communicate with the conduit 45. The fluid motor 63 comprises a piston 65 reciprocably mounted in the cylinder bore 62 and having a piston rod 66 connected therewith, which piston rod passes through a gasket 61, closure member 68 and cylinder head 69 toward the outside for driving any desired mechanism.

The four-way valve 49 is preferably so located with respect to the choke valve 25 that the operator can operate the said two valves from the same place.

The operation of the device as illustrated in Figure 1 is as follows:

Assume that it is desired to move the motor piston slowly toward the right. To this end, the operator adjusts the choke member 21 so that the flow from-the conduit 29 to the conduit 24 is restricted. The pilot pump 31 then supplies fluid through the conduits 36 and 29, through the cylinder bore .28 of the choke valve 25 and the conduit 24 into the cylinder bore I5 of the hollow arm 5. Since only a small quantity of the fluid in the cylinder bore I5 may escape throughthe slot 20, and the conduits 2| and 43 into the fluid tank 22, fluid pressure in the cylinder bore I5 builds up and moves the piston I6 toward the left so that a larger portion of the slot 20 is released by the piston I6, thereby enabling a greater quantity of liquid to flow from the conduit 24 through the conduits 2| and 43 into the fluid tank 22. The movement of the piston I6 continues until equilibrium is established between the thrust of the spring 9 and the fluid pressure in the cylinder bore I5 past the piston I6. If for any reason the pressure in the conduit 29 should exceed a predetermined value, pressure fluid from conduit 29 will pass through conduit 40 below the piston 33 and lift the latter against the thrust of the spring 34, thereby by-passing some liquid from the conduit 36 through the conduit 43 into the fluid tank 22.

Due to the movement of the piston I6 toward the left, the push rod I1 has shifted the shift ring 3 likewise toward the left thereby restricting the stroke of the pump pistons. Consequently, if the valve member 55 is moved downward to its lowermost position, pressure fluid flows from the pump I through the conduit 46 into the bore 54 of the valve casing 48. From the bore 54 the pressure fluid flows through the conduit 64 into the cylinder bore 62 in front of the piston 65 and moves the latter slowly toward the right. During the movement of the piston 65 toward the right, the fluid between the piston 65 and the gasket 61 may escape through the conduit 6|, the

upper portionof cylinder bore 54, and the conduits 45 and 44 to the suction side of the pump I. Since the area of the piston 65 which is adjacent the piston rod 66 is smaller than the opposite piston area, so that less fluid than needed by the pump I flows through conduit 6| into the conduit 44, additional fluid is drawn into the pump from the tank 22. i

If now the choke member 21 is moved somewhat toward the outside of the choke valve cylinder 26, more fluid passes from the conduit 29 through the conduit 24 into the cylinder bore I5, thereby increasing the fluid pressure acting upon the piston I6 so that the piston I6 moves together withthe shift ring 3 further toward the left until again equilibrium has been established between the thrust of the spring 9 and the fluid pressure in the cylinder bore I5. In this way the stroke of the pump I is further restricted thereby decreasing the speed of the piston 65 of the hydraulic motor 63.

If during the movement of the piston 65, it is desired to increase the speed thereof, the choke member 21 is moved toward the inside thereby decreasing the flow of fluid through the choke valve 25 and decreasing the fluid pressure in the bore I5 which acts upon the piston I6 so that the spring 9 may move the shift ring 3 toward the right thereby increasing the delivery stroke of the pump.

Suppose that the piston 65 is now to be moved back to its left-hand position. To this end, the valve member 55 is shifted to its uppermost position, whereupon pressure fluidwill flow from the pump I through the conduit 46, the bore 54 and the conduit 6| into the cylinder bore 62 between the piston 65 and the gasket 61. Consequently, the piston 65 will move toward the left with a speed determined, as previously described, by the setting of the choke member 21. In this instance the fluid in front of the piston 55 may escape through the conduit 64, the lower portion of the valve bore 54, the port 5| and the conduits 45 and 44 to thesuction side of the pump I.

In case it is desired to efi'ect the leftward stroke of the piston 85 very quickly, the choke member 21 is so adjustedas to fully shut offcommunication between the conduits 29 and 24. The fluid to the right of the piston I8 in the arm will then escape through the slot 20 and the conduits 2| and 43 into the tank 22 while the spring 9 moves the shift ring 3 through the intervention of piston *1 and push rod 8 toward the'right, thereby putting the pump I on full stroke or maximum delivery.

If it is desired to stop the piston 85, this may be effected by setting the choke member 21 so that the fluid acting upon the piston I6 shifts the flow-control member into no-delivery position. In addition thereto the valve member 55 may be shifted into the position shown in Figure l, in which the fluid which may still flow through the conduit 48 flows through the bore 59, the annular groove 80, and the bore 58 into the conduit 45, and from there either to the suction side of the pump I, if the latter has not yet reached the no-delivery position, or to the tank 22.

Referring now to the embodiment of Figure 2, the pump 10 is similarly constructed as the pump I of the embodiment shown in Figure 1 and has likewise on each side thereof a hollow arm H and 12. The hollow arm 1I comprises a cylinder bore 13 having a piston 14 reciprocably mounted therein. The piston 14 is connected with a'push rod 15 passing through an opening 16 in the hollow arm H and adapted to engage the shift ring 11 of the pump. A spring 18 is arranged between the inner end of the cylinder bore 13 and the piston 14 and constantly urges the piston 14 toward the left. The outer end of the cylinder bore 13 is closed by a gasket 19 and the cylinder head 80. Adjacent the outer end of the cylinder bore 13 is a slot 8I which is similar to the slot 20 of Figures 1 and 3 and communicates through a conduit 82 with the fluid tank 83.

The hollow arm 12 comprises a cylinder bore 84 having reciprocably mounted therein a piston 85 connected with a push rod 86 which passes through an opening 81 of the hollow arm 12 and is adapted to engage and move the shift ring 11. A spring 88 having the same thrust as spring 18 is arranged between the inner end of the cylinder bore 84 and the piston 85 so that the springs 18 and 88 tend to move the shift ring 11 into its intermediate position thereby shifting the pump to neutral position. Adjacent the outer end of the cylinder bore 84 is a slot 89, similar to slot 8I, which communicates through a conduit 90 with the conduit 82. The outer end of the hollow arm 12 is closed by a gasket SI and cylinder head 92.- Similar to the embodiment of Figurel, a conduit 93 leads from one port of the pump 10 to one end of the cylinder bore 94 of the fluid motor 95 while a conduit 96 leads from the other end of the cylinder bore 94 to the other port of the pump 10. A piston 91 of the fluid motor is connected with a piston rod 98 passing through a gasket 99, closure member,l00 and head IOI toward the outside for driving a desired device. The conduit .93 communicates through a conduit I02 with a chamber I03 of a shuttle valve I04. The shuttle valve I04 comprises a chamber I05 which communicates through a conduit I06 with the fluid tank 83. A third chamber I01 of the shuttle valve I04 communicates through a conduit I08 with the conduit 90. The chambers I03 and I05 are adapted to communicate with each other through an opening I09 while the chamber I01 is' adapted to communicate with the chamber I05 through an opening H0. The

two openings I09 and III) are alternately opened and closed by a double valve member III.

The cylinder bore 84 of the hollow arm 12 communicates through a conduit II2 with a port 3 in a valve casing II4 of a control valve H5. The valve casing II4 comprises four further ports H8, H1, H8 and H9 which may'selectively be brought into communication with a bore I20 in the valve -cock I2I. The bore I20 of the valve cock I2 I communicates through a conduit I22 with a relief valve 30a which in its details corresponds to the relief valve 30 of Figure 1 so that a further description thereof is notnecessary. The various parts of the relief valve 30 bear the same numerals as those of the-valve 30, however with the additional letter a. Similar to the embodiment of Figure 1, the relief valve 30a likewise communicates with a pilot pump I23 through a conduit I24, and a conduit I25 leads from the pilot pump I23 to the valve tank 83. The chamber 35a of the relief valve 30a communicates through a conduit I26 with a conduit I21 which leads to the fluid tank 83. The other end of the conduit I 21 communicates with the port I I6of the control valve H5. The port II1 of the control valve II5 communicates through a conduit I28 with a'chamber I29 of a pressure-responsive automatic choke valve I30. The automatic choke valve I 30 comprises three further chambers I3I, I32 and I33 respectively. The four chambers I29, I3I, I32 and I33 are separated from each other by partitions I34, I35 and I36, each. being provided with an aperture through which a reciprocable shaft I31 passes, which may be hollow but is closed at its ends.

The hollow shaft I31 which is urged by a spring I38 toward the upper end of the casing I39 of the automatic choke valve is provided with two apertures I40. The two apertures I40 (only one is shown in the drawings) are in alignment with each other so that when the hollow shaft. I31 occupies its intermediate or normal position, liquid from the chamber I29 may pass through the apertures I 40 into the chamber I 32. A conduit I4I continuously connects the chamber I32 with the chamber I33. The chamber I 32 communicates with a conduit I42 which leads to a chamber 28a of a choke valve 25a. This choke valve 25a is similar to the manually adjustable choke valve 25 shown in Figure 1 and likewise comprises a choke member 21a. In alignment with the conduit I42 is a conduit I43 which leads from the chamber 28a to a conduit I 44. The conduit I44 leads to the bore 13 in the hollow arm 1I connected with.the casing of the pump 10. The other end of the conduit I 44 communicates with the port I I8 of the control valve I I5.

A conduit I45 effects communication between the chamber -I3I of the automatic choke valve I30 and the conduit I43. Similarly to the port I I1, the port I I9 communicates through a conduit I I1a with an automatic choke valve I300. which is of the same construction as the automatic choke valve I30 and which communicates through a conduit I45a with a conduit I43a leading into the conduit II2. Between the automatic choke valve I30a and the conduit I 43a is a manually adjustable choke valve 25b which is of the same construction as the choke valve 25a. The manually operable choke valve 25a communicates with the automatic choke valve I30a through a conduit I42. The automatic choke valve I30a is provided with a by-pass conduit I4Ia similar to the by-pass conduit I4I of the choke valve I30.

The operation of the embodiment shown in Figure 2 is as follows:

Assume that all parts occupy the position shown in Figure 2 in which the pump is in no-delivery or neutral position, and that a slow movement of the motor piston 91 toward the right is now desired. To this end, the operator shifts the cock I2I so that the bore I20 registers with the port I I1. Fluid pressure from the pilot pump I23 then passes through the conduit I24, the chamber 35a of the relief valve 30a, the conduit I22 into the bore I20. From the bore I20 liquid flows through the conduit I28 into the chamber I29 and from there through the openings I 40 into the chamber I32. The liquid then passes through the conduit I42 into the chamber 28a of the choke valve 25a. Due to the fact that the choke valve member 21a restricts the flow into and from the chamber,28a, only a limited quantity of liquid passes through the conduits I43 and I44 into the cylinder bore 13 where it acts upon the piston 14 and moves the latter toward the right against the thrust of the spring 18.

Since only a small quantity of fluid may escape from the bore 13 through the slot 8I and conduit 82 into the fluid tank 83, pressure builds up in the bore 13 and moves the piston 14 together with the push rod 15 and shift ring 11 toward the right, while a larger portion of the slot 8| is released. During this movement of the shift ring 11, the fluid between the piston 85 and the head 92 may escape through the conduit 90 into the fluid tank 83. The movement of the piston 14 continues until equilibrium is established between the thrust of the spring 18 and the fluid pressure acting upon the piston 14. The pump has then been moved from neutral position to a position in which a restricted quantity of liquid is supplied by the pump 10 through the conduit 93 past the motor piston 91. The liquid acting upon the piston 91 slowly moves the latter toward the right.

During this movement, the fluid between the piston 91 and the head IOI may escape through the conduit 96 from where it flows to the suction side of the pump 10. Since, however, the area of piston 91 is less adjacent the piston rod 98 than it is adjacent the conduit 93 so that less fluid escapes from the cylinder bore 94 into the conduit 96 than is needed by the pump 10, and since the pressure in conduit 93 has moved the valve member I II toward the right, additional fluid is drawn into the conduit 98 from the tank 83 through the conduit I08, the chamber I05, opening IIO, chamber I01 and conduit I08.

If now for some reason the pressure in the pilot pump I23 should decrease so that also the pressure in the conduit I28 and the chamber I29 decreases, the pressure in the chambers I32 and I33 and in the conduit I42 will also decrease. Consequently, the pressure in the chamber I3I together with the thrust of the spring shifts the hollow plunger I31 upward thereby increasing the amount of liquid passed from the chamber I29 to the chamber I32 so that the pressure in the chambers I32 and I33 and in the conduit I42 increases and the previous pressure drop between the conduits I42 and I43 is restored; or in other words, the pressure in the conduits I43 and I44 is maintained. In this way the same desired pressure will always act upon the piston 14, irrespective of variations in the pressure of the pilot pump I23.

If on the other hand, the pressure in the pilot pump I23 should, for any reason, increase, the

pressure in the conduit I28 and the chambers I29, I32 and I33 will likewise increase. This causes the fluid in the chamber I33 to act upon the plunger I31 so as to move the latter downwardly thereby restricting the flow of fluid between the chambers I29 and I32 so that the previous pressure in the conduit I42 and therebyalso the pressure drop between the conduits I42 and I43 is restored and the same pressure in the chamber 13, which previously acted upon the piston 14, is maintained. In order to enable the liquid in the chamber I33 in all circumstances to act upon the plunger I31, an abutment I39a is provided which-has an area less than the adjacent piston surface I31a.

When a quick movement of the piston 91 toward the right is desired, the cock I2I is shifted so that the bore I20 registers with the port IIB of the control valve II5. In this way the two choke valves I30 and 250. are short circuited and the fluid fromthe cylinder valve passes directly through the conduit I44 into thebore 13 past the piston 14 and moves the latter toward its extreme right-hand position thereby shifting the shift ring 11 and the pump 10 to full stroke delivery. A maximum quantity of liquid is then supplied from the pump 10 through the conduit 93 to the piston 91.

If, for some reason, the pressure in the cylinder bore 13 should exceed a predetermined amount, the pressure built up in the conduit I22 acts through the conduit 40a below the piston 33a and lifts the same together with the piston rod 4| (1 so as to release fluid from the chamber 35a to the fluid tank 83.

The movement of the motor piston 91 from its right-hand position to its left-hand position is similar to that from its left-hand position to its right-hand position. It is merely necessary to shift the cock I2I so that, if a slow movement of the motor piston 91 toward the left is desired, the bore I20 registers with the port II9. Inasmuch as the valves I30a and 251) are of the same construction as the valves I06 and 25a, and since the pipe connections of the valves I30a and 25a with the cylinder bore 84 are similar to those of the valves I30 and 2511 with the cylinder bore 13, the operation of the left-hand movement of the piston 91 is identical with the operation of the right-hand movement of the piston 91. The only difference consists merely in that in this instance the valve member III is shifted toward the left due to the pressure in the conduits 96 and I08, so that the surplus fluid which escapes from the bore 94 through the conduit 93 and is not needed by the pump 10 may escape into the fluid tank 83 through the conduits I02 and I09.

If it is desired to regulate the movement of the motor piston 91 in one direction only whereas in the other direction fast movement of the motor piston is always desired, the valves I30a and 25b together with the conduits H111 and I43a may be eliminated so that a pipe connection is obtained as illustrated in Figure 4.

A further simplification of the control mechanism according to the present invention may be obtained by replacing the pilot pump 31 and the relief valve 30 of Figure 1, or the pilot pump I23 and relief valve 300. of Figure -2 by a pump I48 illustrated in Figure 5. This pump is substantially similar to the pump I in Figure l with the exception that it is of materially smaller dimensions. The pump I46 comprises the casing I41 having attached thereto on each side a cylinder I48 and I49 respectively. The cylinder mo els I has a piston I50 connected through a push 1 rod I51 with a shift ring I52. A spring I53 engages on one side the piston I50 and on the other side a washer I54 which may be adjusted by the adjustlng'screw' I55. The cylinder I49 has a cylinder bore I56 having reciprocably mounted therein a piston I51. The piston I51 is connected by a push rod I58 with the shift ring I52. One side of the pump is connected through a conduit I22a with a bore I20a of the control valve 50. This control valve, which in Figure is shown with two ports I59 and I50 may, of course if desired, be replaced by the control valve II5 shown in Figure 2 or the control valve II5b shown in Figure 4. The cylinder bore I56 oi the pump I45 communicates through a conduit IIiI with the conduit I22a. A conduit I52 leads from the other side of the pump to a fluid tank (not shown in the drawings) corresponding to the fluid tank 22 or 83 respectively of Figures 1 and 2.

As will be clear from the foregoing description, an increase in pressure in the conduit I22a will act through the conduit I5I upon the piston I51, thereby shifting the shift ring I52 toward the left and restricting the quantity of fluid delivered by the pump I45 which now takes the place of the pilot pump 31 or l23. On the other hand,

if a decrease in pressure occurs in the conduit I22a, the pressure acting upon the piston I51 likewise decreases andthe shift ring I52 is moved toward the right by the spring I53, thereby increasing the quantity oi. liquid delivered into the conduit I22a.

It will be understood that I desire to comprehend within my invention such modifications as come within the scope of the claims.

Having thus fully described my invention, what I claim as new and desire to secure by Letters Patent is:

1. A hydraulic control circuit comprising in combinationa reciprocable member, yielding means urging said reciprocable member to move in one direction, a cylinder comprising a slot adjacent one end thereof, said slot communicating with an exhaust, a fluid operable plunger movable in said cylinder for moving said reciprocable member in another direction, a fluid source for supplying pressure fluid to said-cylinder for actuating said plunger, said plunger being adapted at least partially to uncover said slot in said cylinder for discharging a portion of the fluid acting upon said plunger, and control means interposed between said fluid source and said cylinder for conveying a variable but predetermined pressure to said cylinder to move said plunger into and in cooperation with said yielding means to maintain said plunger in a predetermined position for a desired time irrespective of variations in pressure between said fluid source and said control means.

2. A hydraulic control circuit comprising in combination a reciprocable member, two cylin ders each having a longitudinal slot, connected with a fluid storage tank, and a fluid operable plunger adapted selectively to cover or release at least a portion of said slot and to move said flow-control member from a point intermediate its extreme positions to any desired position between said point and one of said extreme positions, a pressure fluid source adapted selectively to be connected with one or the other of said two cylinders to supply fluid thereto, control means having a fluid inlet and outlet and being interposed between said fluid source and at least one of said cylinders for varying the flow of fluid from said fluid source to at least one of said cylinders, and means automatically maintaining a desired pressure at the inlet of said control means irrespective of variations in pressure in said fluid source.

3. A hydraulic control circuit comprising a reciprocable member, two cylinders independent or each other and respectively arranged at opposite sides of said member, each cylinder having a longitudinal slot communicating with a fluid tank. and a fluid ope a p unger adapted selectively to cover or release said slot at least in part and to move said reciprocable member from one extreme position to another extreme position or a desired point therebetween, a fluid source said pressure maintaining means and said controlling means for allowing a quickshifting movement or said flow-control member to an extreme position.

4. A hydraulic control circuit comprising in combination, a reciprocable member, two cylinders associated with said reciprocable member and each having a slot therein communicating with an exhaust, a fluid source for supplying pressure fluid to said cylinders, two fluid operable plungers respectively mounted in said cylinders and adapted to vary the flow of fluid from the respective cylinder to said exhaust, said plungers being also adapted selectively to move said reciprocable member in one or the other direction to a desired variable position, controlling means interposed between said fluid source andsaid cylinders for varying the flow o1 fluid to the latter, and means operable selectively to short-circuit said controlling means for causing a quick movement 01' said reciprocable member in one or the other direction without afiecting the position of said controlling means. I

5. In a hydraulic circuit, areciprocable member, yielding means continuously urging saidmember into a predetermined position, two cylinders each having a variable longitudinal opening therein connected with an exhaust, and a fluid operable plunger controlling said opening and adapted to move said reciprocable member to a desired position against the thrust of said yielding means, a fluid source adapted selectively to supply pressure fluid to one or the other of said two cylinders, controlling means interposed between said fluid source and at least one of said cylinders to vary the pressure conveyed thereto, and means adapted selectively to short-circuit said controlling means.

6. In a hydraulic circuit, a reciprocable member, spring means tending to hold said reciprocable member in zero or neutral position, two fluid operable plungers adapted to move said reciprocable member from said neutral position to a desired position in diflerent directions, each of said plungers being adapted selectively to cover or uncover at least a portion of an exhaust opening through which fluid acting on said plungers may escape, a fluid source connected with a control valve adapted selectively to effect communication between said fluid source and one or the other of said plungers to convey fluid pressure thereto, and choke means interposed between said control valve and at least one of said] plungers for varying the flow of fluid to said plungers, said control valve being operable so as to shortcircuit said choke means.

'7. In a hydraulic circuit, a reciprocable member, yielding means tending to hold said member in a predetermined position, hydraulic motor means adapted to shift said reciprocable member in opposite directions and comprising a variable exhaust opening controlled by said motor means, a fluid source adapted to supply pressure fluid to said hydraulic motor means for actuating said reciprocable member, control means between said fluid source and said motor means for varying the fluid pressure acting on the latter, means for automatically regulating the fluid pressure at the inlet to said controlling means to produce a predetermined constant pressure in said motor means while positively maintaining said reciprocable member in its respective position, and manually operable means adapted selectively to shortcircuit said control means and pressure maintaining means. 7

8. In a hydraulic control circuit, a reciprocable said member in a predetermined position, servo- I member, yieldable means tending to maintain motor means comprising a cylinder having a discharge opening therein, a hydraulically operable plunger movable in said cylinder and directly controlling said opening so as to increase the efiective area of said opening when moving in one direction, and to decrease the said area when moving in the opposite direction, a fluid source for supplying pressure fluid to said cylinder for actuating said plunger against the thrust of said yielding means, and choke means interposed between said fluid source and said cylinder for varying the pressure acting on said plunger to move said plunger into and positively maintain the same in any desired position between its end positions for any desired time.

9. In a hydraulic system, a reciprocable member, yielding means urging said member in one direction, a cylinder having a hydraulically operable plunger therein for moving said member in the I opposite direction, said cylinder having a longitudinal opening therein adapted selectively to be covered or uncovered at least in part by said plunger responsive to the fluid pressure acting on said plunger and also adapted to be connected with an exhaust, and means for admitting a predetermined but variable fluid pressure to said cylinder and maintaining said pressure for any desired time.

WARREN R. TUCKER. 

